DE19603653A1 - Code transmitter for automobile anti-theft device - Google Patents

Abstract

The code transmitter has at least 2 switches (S1,S2) operated to provide respective switch signals, an oscillator, e.g. SAW resonator, being a part of AM or FM modulator, and a transmission stage with a driver (T1) and an antenna (La), activated by operation of at least one switch, for transmitting the modulated oscillation as a remote-control signal (1). A pre-amplifier (2,R2,R3) is inserted between the switches and the transmission stage, providing an output signal dependent on the operated switch, for controlling the amplification of the modulated oscillation and the power of the transmission stage.

Description

The invention relates to a code transmitter, in particular for a Anti-theft system of a motor vehicle that modulates transmits the code signal to a receiver in the motor vehicle.

Conventional code transmitters have a button when they are pressed the code signal is sent. If another white lower button to control another function in the motor vehicle Stuff is present, when it is operated, another one Code signal sent. If to send the code signal only a single transmission stage is used, so with both Code signals the output power identical. The two code signals therefore have the same range.

The invention is based on the problem of a code transmitter create with the code signals with different ranges te can be sent out.

According to the invention, this problem is solved by the features of Claim 1 solved. Advantageous embodiments of the Er invention are characterized in the subclaims.

An embodiment of the invention will follow hand of the schematic drawing explained in more detail. The only Figure shows a circuit arrangement of the invention Code transmitter.

A code transmitter for modulated code signals 1 (see figure) has an oscillating circuit with a transistor T₁, two resistors R₄ and R₅, three capacitors C₁, C₂ and C₃ and an antenna L _A in the form of a coil. The capacitors C₂ to C₄ and the antenna L _A are energy stores, between which the vibration energy is exchanged.

A resonator SAW (here, for example, a SAW resonator; surface acoustic wave resonator) forces this resonant circuit a vibration, so that the resonant circuit after the on switch with a Fre determined by the resonator SAW quenz swings. The transistor T₁ holds the vibration its amplifier properties are constantly swinging.

In order to generate a modulated code signal 1 , the oscillation of the oscillating circuit can be changed in its amplitude or in its frequency by a modulator, not shown. Since the modulation of the code signal 1 is not essential for the invention, this will not be discussed in more detail.

As a result of the oscillation of the resonant circuit, the antenna L _A emits the code signal 1 , which is received, for example, by a receiver located in the motor vehicle. The receiver can also be designed as a coil. In this case, the code signal 1 is transmitted inductively from the antenna _A to the coil L in the motor vehicle.

The code transmitter has at least two buttons or switches S₁ and S₂, each of which generates a switching signal in egg ner control unit 2 when actuated. When the switch S₁ is actuated, for example, a locking or unlocking signal is to be sent to the motor vehicle as code signals 1 . When actuating the switch S₂, for example, an emergency signal is to be sent as code signals 1 .

If the unlocking signal is to be sent, a short range of the code signal 1 is sufficient so that the vehicle doors can only be unlocked in the vicinity of the code transmitter. If, on the other hand, an emergency call signal is to be transmitted, a large range of code signal 1 is required so that distant receiving stations can receive the emergency call signal.

According to the invention, both signals are transmitted via the single antenna L _A. So that different ranges can be achieved, different output powers are achieved by controlling the transistor T 1 with different voltage levels. For this purpose, a resistor network from the Wi resistors R₂, R₃ and R₆ is provided, in which the resistors R₂ and R₃ are formed as voltage dividers and the opponent was R₆ as the basic series resistor of the transistor T₁ is ausgebil det.

If the switch S₂ is actuated, there are +5 V between the resistors R₂ and R₃ (dashed path in the figure). As a result, the transistor T₁ is heavily controlled and the greatest possible output power is generated, through which the code signal 1 is sent from the antenna L _A. If, however, the switch S₁ is actuated, the voltage is +5 V at one end of the resistor R₂ and between the resistors R₂ and R₃ results in a smaller voltage due to the voltage division. Thus, the transistor is turned on less and a smaller power output is generated.

The output power is proportional to the range of the code signal 1 . With the circuit arrangement shown, ranges of approximately one kilometer can be achieved when the S₂ key is pressed and a range of less than 100 m when the S₁ key is pressed. Depending on the dimensions of the resistors R₂, R₃ and R₆, other ranges can also be achieved. For example, when pressing the key S₁ a range of only 10 meters can be achieved, as when pressing the key S₂ a range of 30 meters.

One of the keys S₁ or S₂ is usually used to send out a locking or unlocking signal. The other button can be used to send out an emergency signal or to control comfort functions in the motor vehicle. Such comfort functions are, for example, opening / closing windows or sunroofs, switching the interior light on / off, switching on the heating, etc. With The code signal 1 can also be used to transmit user-specific information to the motor vehicle, through which seats and mirrors are set specifically for the user.

However, these convenience functions are controlled with a code signal 1 with reduced output power and thus a shorter range. If the ratio of the resistors R₂ / R₃ = 1, the power when the switch S₁ is actuated is doubled compared to the actuation of the switch of S₂. The resistor network from the resistors R₂, R₃ and R₆ can also consist of any number of resistors. Thus, several output powers of the antenna L _A can be achieved. Synonymous with this, several ranges of the code signals 1 are achieved.

If the switches S₁ and S₂ are both switched to +5 V, the control unit 2 can be omitted (it then applies the dashed line in the figure). The switches S₁ and S₂ NEN can also be connected on the one hand to ground and on the other hand to the control unit 2 , which can be designed as a microprocessor (µP). When switching the switches S₁ or S₂, a switching signal is generated in the control unit 2 , whereby an output level of, for example, +5 V is applied to the corresponding output of the microprocessor. Various output lines are then achieved through the resistor network.

However, the microprocessor can also be designed such that he can apply a voltage to his output ports whose Height depends on the operated switch S₁ or S₂ is. For example, when you press S₁ a span voltage of +5 V and when pressing S₂ a voltage of +2.5 V to the respective output port. In a sol Chen case, the resistance R₂ can be omitted. The home ports of the microprocessor are then directly with the resistor R₆  connected. Depending on the voltage level at the output port of the micro then a different gain of the processor Transistor T₁ reached.

The advantage of the code transmitter according to the invention is that only a single transmission stage is used in the code transmitter, via which different transmission powers are set and, as a result, different ranges of the code signals 1 are achieved.

The code transmitter can be integrated on a door or ignition key, through which a code signal 1 for unlocking door locks or for releasing the immobilizer is generated via the ignition lock. The code signal 1 is received and evaluated by a receiver in the motor vehicle.

The specified voltage values are only given as examples ben. The code transmitter according to the invention also works with other voltage values.

The code signals can be frequency, phase or be amplitude modulated. Other types of modulation are also possible.

Claims (8)

1. Code transmitter, in particular for an anti-theft system of a motor vehicle, with

• - At least two switches (S₁, S₂), each actuation of which triggers a switching signal,
• - With a modulator (SAW), which generates a modulated oscillation, and with
• - A transmission stage with a driver (T₁) and an antenna (L _A ) which is activated as a result of the actuation of a switch (S₁, S₂) in order to transmit the modulated vibration as remote control signals ( 1 ),

characterized in that it has a preamplifier stage ( 2 , R₂, R₃) which is connected on the one hand to the switches (S₁, S₂) and on the other hand to the transmitter stage (T₁, L _A ) and which is dependent on the switch (S₁ , S₂) he produces an output signal by which the modulated oscillation is amplified more or less in amplitude and thus the transmission stage is controlled in its output power. 2. Code transmitter according to claim 1, characterized in that upon actuation of the first switch (S₁) an output signal with a low amplitude is generated, whereby a remote control signal ( 1 ) with a small output power and thus with a short range is emitted. 3. Code transmitter according to claim 1, characterized in that upon actuation of the second switch (S₂) an output signal of large amplitude is generated, whereby a remote control signal ( 1 ) with a large output power and thus with a large range is emitted. 4. Code transmitter according to claim 1, characterized in that when the first switch (S₂) is pressed, a remote control signal ( 1 ) for unlocking or locking locks and when the second switch (S₂) is pressed, an emergency signal is sent as a remote control signal ( 1 ) . 5. Code transmitter according to claim 1, characterized in that the preamplifier stage is a microprocessor ( 2 ). 6. Code transmitter according to claim 1, characterized in that the preamplifier stage is a resistor network with several Resistors (R₂, R₃). 7. Code transmitter according to claim 1, characterized in that the transmission stage is a transistor (T₁), with the collector or emitter, the antenna (L _A ) is connected in the form of a coil.